Physics, MS MS
The Department of Physics and Astronomy exhibits exceptional strength in several areas. We invite applications to the doctoral program from able students interested in experimental and theoretical condensed matter physics; in structural biophysics and protein dynamics and function; and in cosmology, relativistic astrophysics, and gravitational-wave/multimessenger astronomy. The primary goal of our graduate education is the training of creative research scientists.
Our research in gravitational physics is in several areas: In gravitational-wave astronomy, we play a leading role in LIGO, extracting signals of gravitational-waves from the coalescence of binary neutron stars and black holes, as well as searching for electromagnetic counterparts, and in the use of pulsars to measure gravitational waves from supermassive black holes. In relativistic astrophysics we study black hole structure and evolution, have established limits on the spin and mass of rotating neutron stars, and develop computational techniques to model merging stars. Astronomy efforts include studying early galaxy formation and evolution, the phenomenology of neutron stars and white dwarfs, and numerical computation of stellar interactions.
Our condensed matter physics research focuses on quantum materials, including topologically non-trivial materials, altermagnets, superconductors, and antiferromagnetic spintronics candidate materials. Experimental condensed matter research aims to understand the fundamental properties of the materials. Our theoretical condensed matter research uses the predictive power of symmetry and topology to understand electronic correlations in quantum materials with the goal of uncovering new fundamental concepts.
Our biophysics oriented research has an experimental and a theoretical/computational component. On the experimental side, we explore at molecular level how proteins respond to force using magnetic tweezers and design muscle-like biomaterials; we use macromolecular crystallography to study molecular motions of proteins; and we use fluorescence-based methods to investigate the association of membrane proteins on the cellular membrane. Our theoretical and computational work in biophysics includes developing advanced data analytic algorithms to study structural dynamics, conformations, and energy landscapes of biological molecules using X-ray free-electron laser and cryo-electron microscopy data in the presence of extreme data artifacts.
We typically do not accept applications for a separate MS degree outside of the Accelerated Masters Program, except in unusual circumstances. Please apply for the PhD program instead. If you are interested in applying for the MS please contact the Physics Graduate Admissions committee.
Graduate Minor in Physics
A doctoral student in another department wishing to minor in Physics must choose a minor professor from among the Physics and Astronomy Graduate Faculty. The student and the minor professor plan a program of study consisting of 9 to 12 graduate credits in Physics and complete a Graduate Minor Program Plan for the Physics and Astronomy Department files.
Program Type
Master’s
Program Format
On Campus
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Admission Requirements
Application Deadlines
Application deadlines vary by program, please review the application deadline chart for specific programs. Other important dates and deadlines can be found by using the One Stop calendars.
Admission
An applicant must meet Graduate School requirements plus these departmental requirements to be considered for admission to the program:
- Letters of Recommendation. Three letters of recommendation are required from persons familiar with the applicant’s academic work.
- Statement of Purpose. An essential part of your application, the Statement of Purpose is used to determine the appropriateness of your educational and professional goals and serves as an example of your ability to express yourself in writing.
- Undergraduate major in physics or related fields. Applicants may be admitted with specific program-defined course deficiencies provided that the deficiencies amount to no more than two courses.
- Submission of their curriculum vitae (CV).
The GRE is not required for admission. The student is expected to satisfy deficiency requirements within three enrolled semesters. No course credits earned in making up deficiencies may be counted as program credits required for the degree.
Credits and Courses
Option 1: Thesis Option
Minimum degree requirement is 30 graduate credits, 18 of which must normally be in physics and 12 of which may be in related fields. Of the 18 credits earned in the Department, at least 6 must be in physics courses numbered above 700, with the remainder in courses at least above 500; research, seminar, and independent study credits do not satisfy the 700 requirement. Six credits are earned through the thesis.
| Code | Title | Credits |
|---|---|---|
| Physics Courses | 12 | |
| At least 6 numbered above 700 * | ||
| Remainder at least above 500 | ||
| Physics or Related Fields | 12 | |
| PHYSICS 890 | Master's Thesis ** | 6 |
| Total Credits | 30 | |
- *
Not including research, seminar, and independent study
- **
Only 6 credits of PHYSICS 890 may be counted toward the 30-credit requirement, though a student may enroll in the course more than once and may take more than 6 credits.
Option 2: Non-Thesis Option
Minimum degree requirement is 30 graduate credits, 18 of which must normally be in physics and 12 of which may be in related fields. Of the 18 credits earned in the Department, at least 6 must be in physics courses numbered above 700, with the remainder in courses at least above 500; research, seminar, and independent study credits do not satisfy the 700 requirement.
| Code | Title | Credits |
|---|---|---|
| Physics courses | 18 | |
| At least 6 numbered above 700 * | ||
| Remaining 12 at least above 500 | ||
| Related Fields | 12 | |
| Total Credits | 30 | |
- *
Not including research, seminar, and independent study
Comprehensive Examination
The student must pass a thesis defense, pass a comprehensive oral examination, or complete and present an acceptable capstone project. The non-thesis master’s comprehensive oral examination should evaluate the student’s achievements in graduate courses and fulfillment of the goals of the student’s program of study. In particular, students should be familiar with the materials in the “core” courses:
| Code | Title | Credits |
|---|---|---|
| PHYSICS 515 | Statistical Mechanics | 3 |
| PHYSICS 531 | Principles of Quantum Mechanics I | 3 |
| PHYSICS 532 | Principles of Quantum Mechanics II | 3 |
| PHYSICS 711 | Theoretical Physics-Dynamics | 3 |
| PHYSICS 722 | Advanced Classical Electromagnetism | 3 |
Application to all graduate programs are completed through the UWM Graduate School. Please see their website for detailed information about the application process and contact them with questions.
We also have provided information about applying to one of the physics graduate programs and our admissions criteria:
Teaching and Research Assistantships are the primary form of financial support for Physics graduate students. These positions provide a salary and tuition remission. Some small scholarships are also available. Click below for more details.